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<table width="100%"><tr><td align="left"><a href="../index.html"><img alt="<" border="0" src="../left.png">&nbsp;Master index</a></td>
<td align="right"><a href="index.html">Index for utilities&nbsp;<img alt=">" border="0" src="../right.png"></a></td></tr></table>

<h1>Index for utilities</h1>

<h2>Matlab files in this directory:</h2>
<table>
<tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="ST_Dstar.html">ST_Dstar</a></td><td>Calculate non-dimensional grain size D* </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="ST_d2phi.html">ST_d2phi</a></td><td>Convert sediment diameter (m) to phi </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="ST_erate.html">ST_erate</a></td><td>Calculate erosion rate in kg/(m^2-s) </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="ST_example.html">ST_example</a></td><td>Example usage of Sediment Toolbox </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="ST_phi2d.html">ST_phi2d</a></td><td>Convert sediment grain size from phi to d (m) </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="ST_summary.html">ST_summary</a></td><td>Print summary for stats of particle diameter d (m) </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="ST_taucr.html">ST_taucr</a></td><td>Calculate critical shear stress in Pascals </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="ST_wentworth.html">ST_wentworth</a></td><td>Report wentworth class of a particular grain size phi </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="ST_wset.html">ST_wset</a></td><td>Calculate settling velocity of particle diameter d (m) in m/s </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="SW_Density.html">SW_Density</a></td><td>SW_Density    Density of sea water </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="SW_Kviscosity.html">SW_Kviscosity</a></td><td>Calculates the kinemtic viscosity [m^2/s] from the dynamic viscosity and </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="SW_Viscosity.html">SW_Viscosity</a></td><td>SW_Viscosity    Dynamic viscosity of seawater </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="calc_tauw.html">calc_tauw</a></td><td>DESCRIPTION: </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="check_wset.html">check_wset</a></td><td>Calculate settling velocity of particle diameter d (m) in m/s </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="ginput2.html">ginput2</a></td><td>GINPUT2   Graphical input from mouse with zoom, pan, plot and scaling. </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="greg2julian.html">greg2julian</a></td><td>This function converts the Gregorian dates to Julian dates. </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="greg2mjulian.html">greg2mjulian</a></td><td>This function converts the Gregorian dates to Modified Julian dates. </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="gridvecs.html">gridvecs</a></td><td>clear all; close all; </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="inbox.html">inbox</a></td><td>determine if points lie in a box </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="inkmlbb.html">inkmlbb</a></td><td>fname = 'Wet_Skagit_BB.kml'; </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="isintriangle.html">isintriangle</a></td><td>determine if point (x0,y0) is in triangle defined by nodes (xt(3),yt(3)) </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="julian2greg.html">julian2greg</a></td><td>This function converts the Julian dates to Gregorian dates. </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="mjul2str.html">mjul2str</a></td><td>Convert a modified Julian day to a Matlab datestr style string </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="mjul2str2.html">mjul2str2</a></td><td>Convert a modified Julian day to a Matlab datestr style string </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="mjul2str_noyear.html">mjul2str_noyear</a></td><td> </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="mjulian2greg.html">mjulian2greg</a></td><td>This function converts Modified Julian dates to Gregorian dates. </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="naut_2_cart.html">naut_2_cart</a></td><td>convert wind from nautical (speed,direction) to Cartesian (u,v) </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="pl64.html">pl64</a></td><td>low pass filter (33 hr) </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="read_kml.html">read_kml</a></td><td>READ_KML reads a Google Earth kml file into Matlab </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="runmean.html">runmean</a></td><td>RUNMEAN - Very fast running mean (aka moving average) filter </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="show_sigma.html">show_sigma</a></td><td>function [] = show_sigma(meshfile,bathfile,sigmafile) </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="sigma_gen.html">sigma_gen</a></td><td> </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="sigma_geo.html">sigma_geo</a></td><td> </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="sigma_tanh.html">sigma_tanh</a></td><td> </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="tri_from_bndry.html">tri_from_bndry</a></td><td>tesselate a triangular mesh using "triangle" from a single, unclosed boundary </td></tr><tr><td><img src="../matlabicon.gif" alt="" border="">&nbsp;<a href="wave_fric.html">wave_fric</a></td><td>wave friction using Soulsby page 80 </td></tr></table>




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